#!/bin/sh
#

SSHOPTS="-l root -o PasswordAuthentication=no -o ConnectTimeout=5"

msg() {
	echo "$@" >&2
}
usage() {
	echo "usage: $0 <dir>"
	echo "	dir: working directory (with the control file)"
	exit 0
}

[ $# -eq 0 ] && usage
WORKDIR=$1
test -d "$WORKDIR" || usage

CTSCTRL=~/.cts
CTRL=$WORKDIR/control
CSV=$WORKDIR/bench.csv
STATS=$WORKDIR/bench.stats

test -f $CTRL && . $CTRL

@datadir@/@PACKAGE@/tests/cts/cluster_test 500 || {
	msg "cluster_test failed"
	exit 1
}

test -f $CTSCTRL ||  {
	msg no CTS control file $CTSCTRL
	exit 1
}
. $CTSCTRL

: ${CTS_logfacility:=local7}
: ${CTS_stack:=corosync}
: ${CTS_logfile:="@CRM_LOG_DIR@/ha-log-bench"}
: ${CTS_adv:="--schema pacemaker-1.2 --clobber-cib -r"}
: ${RUNS:=3}
: ${CTSTESTS:="--benchmark"}
: ${CTSDIR:="@datadir@/@PACKAGE@/tests/cts"}

[ "$CTS_node_list" ] || {
	msg no node list specified
	exit 1
}

case "$CTS_stack" in
corosync) CRM_REPORT_OPTS="--corosync";;
*) msg "$CTS_stack: cluster stack not recognized"; exit 1;;
esac

CTSOPTS="--stack $CTS_stack --at-boot $CTS_boot $CTS_adv"
CTSOPTS="$CTSOPTS --facility $CTS_logfacility --logfile $CTS_logfile"

if [ "x$CTS_stonith" != "x" ]; then
	CTSOPTS="$CTSOPTS --stonith-type $CTS_stonith"
	[ "x$CTS_stonith_args" != "x" ] &&
		CTSOPTS="$CTSOPTS --stonith-params \"$CTS_stonith_args\""
else
	CTSOPTS="$CTSOPTS --stonith 0"
fi

CTSOPTS="$CTSOPTS $CTSTESTS"

fibonacci() {
	F_LIMIT=$1
	F_N=2
	F_N_PREV=1
	while [ $F_N -le $F_LIMIT ]; do
		echo $F_N
		F_N_TMP=$F_N
		F_N=$((F_N+F_N_PREV))
		F_N_PREV=$F_N_TMP
	done
	[ $F_N_PREV -ne $F_LIMIT ] && echo $F_LIMIT
}
[ "$SERIES" ] ||
	SERIES=$(fibonacci "$(echo $CTS_node_list | wc -w)")

get_nodes() {
	GN_C_NODES=$(echo $CTS_node_list | awk -v n="$1" '
		{ for( i=1; i<=NF; i++ ) node[cnt++]=$i }
		END{for( i=0; i<n; i++ ) print node[i] }
	')
	if [ "$(echo $GN_C_NODES | wc -w)" != "$1" ]; then
		msg "not enough nodes in $CTSCTRL"
		exit 1
	fi
	echo $GN_C_NODES
}
node_cleanup() {
	msg "CIB cleanup ($nodes)"
	for NC_N in $nodes; do
		ssh $SSHOPTS $NC_N 'rm @CRM_CONFIG_DIR@/*'
	done
}
testnum() {
	printf '%03d' $1
}
mkreports() {
	msg "Creating reports for the CTS run"
	MKR_CTS_DIR=$1
	grep "Running test " $MKR_CTS_DIR/ctsrun.out | tr -d \[\] |
	awk '{print $6,$NF}' |
	while read type num; do
		teststg="`testnum $num`-$type"
		(
		cd $MKR_CTS_DIR || return
		crm_report $CRM_REPORT_OPTS -f "cts:$num" -n "$nodes" "$(pwd)/$teststg" < /dev/null
		)
	done
}
runcts() {
	RC_ODIR="$1"
	msg "Running CTS"
	python "$CTSDIR/CTSlab.py" $CTSOPTS --nodes "$nodes" > "$RC_ODIR/ctsrun.out" 2>&1 &
	ctspid=$!
	tail -f "$RC_ODIR/ctsrun.out" &
	tailpid=$!
	wait $ctspid
	kill $tailpid >/dev/null 2>&1
}

bench_re='CTS:.*runtime:'
diginfo() {
	DI_CTS_DIR="$1"
	DI_S="$2"
	filter="$3"
	(
	cd "$DI_CTS_DIR" || return
	for r in [0-9]*.tar.bz2; do
		tar xjf $r
		DI_D=$(basename "$r" .tar.bz2)
		for DI_V in $(grep "$bench_re" "$DI_D/ha-log.txt" | eval "$filter"); do
			DI_S="$DI_S,$DI_V"
		done
		rm -r "$DI_D"
	done
	echo $DI_S
	)
}
printheader() {
	diginfo $1 "" "awk '{print \$(NF-2)}'"
}
printstats() {
	diginfo $1 "$clusize" "awk '{print \$(NF)}'"
}
printmedians() {
	PM_F="$1"
	PM_S="$clusize"
	PM_MIDDLE=$((RUNS/2 + 1))
	set $(head -1 "$PM_F" | sed 's/,/ /g')
	PM_COLS=$#
	for PM_I in $(seq 2 $PM_COLS); do
		PM_V=$(awk -v i=$PM_I -F, '{print $i}' < $PM_F | sort -n | head -$PM_MIDDLE | tail -1)
		PM_S="$PM_S,$PM_V"
	done
	echo $PM_S
}

rm -f $CSV
tmpf=`mktemp`
test -f "$tmpf" || {
	msg "can't create temporary file"
	exit 1
}
trap "rm -f $tmpf" 0
for clusize in $SERIES; do
	nodes=`get_nodes $clusize`
	outdir=$WORKDIR/$clusize
	rm -rf $outdir
	mkdir -p $outdir
	rm -f $tmpf
	node_cleanup
	for i in `seq $RUNS`; do
		true > $CTS_logfile
		mkdir -p $outdir/$i
		runcts $outdir/$i
		mkreports $outdir/$i
		printstats $outdir/$i >> $tmpf
	done
	[ -f "$CSV" ] || printheader $outdir/1 > $CSV
	printmedians $tmpf >> $CSV
	cat $tmpf >> $STATS
	msg "Statistics for $clusize-node cluster saved"
done
msg "Tests done for series $SERIES, output in $CSV and $STATS"
